UMLS:C0848237 - FACTA Search

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Query: UMLS:C0848237 (acute stress)
4,619 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of atropine sulfate pretreatment on pituitary indices of stress response were examined. Pituitary cyclic AMP and plasma prolactin increases following 15 min of acute stress were used as measures of stress response. Over a range of doses (0, 5, 10, 30 and 60 mg/kg), pretreatment with atropine sulfate increased the measured stress responses to footshock but had little or no effect on resting or non-stressed levels of the substances measured. The effects of atropine on response to immobilization were tested only at 5 mg/kg. At this dose, atropine sulfate, but not methylatropine nitrate, increased pituitary cyclic AMP response to immobilization stress demonstrating that the potentiation of the pituitary cyclic AMP stress response was not limited to footshock stress and suggesting that this effect of atropine was central rather than peripheral. Neither atropine nor methylatropine pretreatment at this dose potentiated prolactin response to immobilization stress.
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PMID:Atropine sulfate increases pituitary responses to stress. 303 4

In a randomised controlled study in 16 orthopaedic patients, the influence of midazolam-fentanyl-N2O/O2 anesthesia (group A) resp. halothane-N2O/O2 anesthesia (group B) on the plasma concentrations of the endocrine parameters ACTH, aldosterone, cortisol, 17-DHEA, insulin, prolactin, T3, T4, TBG (thyroxine bounded globuline) as well as adrenaline, noradrenaline, and dopamine was investigated. Additionally the metabolites glucose, lactate, free glycerin, and acetacetate were measured. Beside prolactin values, only the values for ACTH, aldosterone, cortisol, and 17-DHEA differed with respect to both anesthesia methods. Under halothane-N2O/O2 anesthesia free T4 rose initially also, here represented by T4/TBG-ratio (= FTI). However, the fall of T3 concentration showed no phase - resp. anesthesia-specific changes. Catecholamine levels reached highest values towards the end of operation resp. one hour after extubation in both groups. The insulin secretion, however, was not significantly raised in either group during acute stress phases. As an expression of modified metabolic regulation comparable rises of plasma levels of glucose, lactate, free glycerin, and acetacetate were observed under midazolam-fentanyl-N2O/O2 anesthesia as well as under halothane-N2O/O2. According to presented data, both methods of anesthesia modulated the endocrine metabolic response of the organism to surgical stress, without showing any clinically relevant advantages or disadvantages attributable to either method.
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PMID:[Endocrine reaction pattern: midazolam-fentanyl anesthesia versus inhalation anesthesia]. 329 79

The present study was carried out to examine the effect of repetitive acute stress on pituitary secretion of prolactin (PRL) and luteinizing hormone (LH) during subsequent exposure to the same stimulus or to a second, novel stress. Intact adult male rats were subjected to either a single or 10 daily acute episodes of a psychological stress, transfer to a novel environment, or a physical stressor, restraint. A single acute exposure to either stress caused a temporary but significant increase in circulating concentrations of LH and PRL, and repetitive daily exposure to these stressors resulted in the habituation of stress-stimulated release of both hormones by the 10th consecutive day. When rats previously exposed to daily novel environment stress were subjected to a single episode of restraint stress, they showed an attenuation of both the LH and PRL secretory responses to this type of stress, compared to rats exposed to only one episode of restraint. These results indicate that repeated daily exposure to specific acute stress stimuli can result in the eventual habituation of both the LH and PRL hormonal responses to stress. At least with regard to the paired stressors examined in this study, adaptation to one type of acute stress stimulation may result in altered hormonal responsiveness to a second, unfamiliar stressor.
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PMID:Effects of repetitive daily acute stress on pituitary LH and prolactin release during exposure to the same stressor or a second novel stress. 344 82

The present study was carried out to determine the effects of repetitive acute stress exposure on pituitary secretion of both luteinizing hormone (LH) and prolactin (PRL). Adult male rats were exposed to sequential episodes of acute novel environment stress separated by intervals of either 60 or 120 minutes. Serial blood samples were obtained from animals before, during and after each stress episode via indwelling intra-cardiac cannulas. The imposition of 10 minute episodes of novel environment stress on an hourly basis eventually rendered the hypothalamic-hypophyseal LH axis refractory to the stimulatory effect of stress. If sequential stress was imposed at 120 minute intervals, LH release was significantly enhanced during each exposure. A different pattern of PRL release was observed during the same sequential stress schedule. After an initial increase in hormone release in response to the first hourly stress episode, PRL levels were unaltered during the second and third hourly stress exposures. Thereafter, plasma PRL levels showed a trend toward a progressive increase in release during each successive episode, and were significantly elevated above preceding baseline levels during the fourth and fifth hourly stress exposures. In rats exposed to stress every two hours, a significant increase in PRL levels occurred following the first, but not the second stress episode. Hormone release was again enhanced in response to the third exposure to novel environment. The present results demonstrate that the repetitive exposure to acute novel environment stress results in differential alterations in pituitary LH and PRL secretion over time, and that the timing of repeated episodes is an important determinant of continued responsiveness to stress, particularly with regard to LH release. These findings suggest that the LH and PRL hormonal responses to at least this specific stressor are mediated by independent neural mechanisms.
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PMID:Effects of sequential acute stress exposure on stress-induced pituitary luteinizing hormone and prolactin secretion. 362 56

The plasma oxytocin (OT) response to acute stress was compared between virgin, lactating, and hyperprolactinaemic female rats. In virgin rats, brief immobilization was associated with a significant elevation of plasma OT to 24.7 +/- 3.7 pmol/l compared with 7.7 +/- 1.1 pmol/l in controls. In contrast, the stress response was absent in lactating (6 days post-partum) animals: control OT 9.4 +/- 2.2, immobilized OT 9.0 +/- 1.1 pmol/l. Hyperprolactinaemia produced by treatment with either dopamine antagonists (domperidone or haloperidol) or ovine prolactin was also associated with an impairment of the OT stress response in intact females, whereas domperidone treatment failed to modify the response in ovariectomized (OVX) rats. Following ovarian steroid replacement with oestradiol and progesterone, the inhibitory effect of domperidone was observed in OVX rats: control OT 11.1 +/- 2.5, immobilized OT 16.0 +/- 3.7 pmol/l. Treatment of OVX rats with oestradiol and progesterone, either separately or combined, did not modify the OT stress response. Plasma levels of vasopressin were not significantly modified in either control or immobilized rats of any experimental groups. The results indicate that hyperprolactinaemia may be a causative factor in the impairment of OT stress responses observed in lactating rats.
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PMID:Oxytocin responses to stress in lactating and hyperprolactinaemic rats. 369 84

The effect of chronic noise stress on the response of anterior pituitary hormones to the same or to another stressor (forced swimming) was studied in adult male Wistar rats. Both acute stressors increased corticosterone, prolactin, LH and TSH secretion and inhibited GH secretion. Previous chronic exposure to noise reduced corticosterone response to the same stimulus without modifying corticosterone response to a novel acute stress. Neither prolactin nor TSH responses to acute noise were reduced by previous chronic exposure to noise. Since chronic noise increased basal levels of LH and decreased those of GH, the response of these hormones to acute stress was expressed as percent changes of their respective basal values. It was found that chronically stressed rats showed diminished LH response to noise but not to forced swimming. GH showed the same pattern without reaching statistical significance. These data indicate that the response of some anterior pituitary hormones can adapt after repeated exposure to the same stressor. When adaptation occurred, this was specific for the stressor which the animals were repeatedly exposed to. The pituitary-adrenal axis appears to be the most reliable index of adaptation to chronic stress among all the anterior pituitary endocrine axes.
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PMID:Response of anterior pituitary hormones to chronic stress. The specificity of adaptation. 377 44

Studies were undertaken to evaluate the acute responses of hypothalamic noradrenergic and dopaminergic neurons and anterior pituitary hormones to naloxone (NAL)-precipitated morphine (MOR) withdrawal in the rat. Ovariectomized female rats were rendered MOR-dependent and injected with NAL (1 mg/kg b.w., s.c.). During precipitated MOR withdrawal, a decline in norepinephrine (NE) concentrations was preceded by an increase in the level of its metabolite normetanephrine (NME) in the medial basal hypothalamus (MBH) as well as the preoptic area-anterior hypothalamus (POA-AH). Both dopamine (DA) and its major acid metabolite, dihydroxyphenylacetic acid (DOPAC), showed increased concentrations in these two hypothalamic regions within 30 min of NAL administration. Elevated luteinizing hormone (LH) and beta-endorphin secretion was evident within 5 min of NAL injection to MOR-dependent rats, while serum prolactin (PRL) increased 15 min into MOR withdrawal. Both growth hormone (GH) and thyroid-stimulating hormone (TSH) were depressed over the course of MOR withdrawal. Although a cause and effect relationship cannot be established, during NAL-precipitated MOR withdrawal, a heightened hypothalamic monoaminergic neuronal activity is accompanied by a differential response of anterior pituitary hormones. The observed responses, which are similar to those seen during acute stress, indicate that MOR withdrawal may activate the same mechanisms which mediate the neuroendocrine response to stress.
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PMID:Changes in anterior pituitary hormone secretion and hypothalamic catecholamine metabolism during morphine withdrawal in the female rat. 405 62

The effects of acute stress on serum prolactin concentrations and tuberoinfundibular dopaminergic (TIDA) neuronal activity were studied in female rats. TIDA neuronal activity was estimated by measuring the rate of dihydroxyphenylalanine (DOPA) accumulation after the administration of a decarboxylase inhibitor (NSD 1015) and the rate of decline of dopamine (DA) after the administration of a tyrosine hydroxylase inhibitor (alpha-methyltyrosine) in the median eminence. Serum prolactin concentrations were increased following 30 min of supine immobilization (restraint stress), but returned to control levels by 2, 8, and 16 h after the onset of this stress. The rate of DOPA accumulation was decreased during the 30 min of restraint; it was still further reduced 2 h later but had returned to control levels 8 and 16 h later. No change in the rate of DOPA accumulation was observed in the striatum or neurointermediate lobe of the pituitary at any time after the start of restraint. Restraint stress also decreased the rate of DA turnover in the median eminence, but was without effect on the rates of DA turnover in the striatum or neurointermediate lobe. These results suggest that restraint stress activates an inhibitory neuronal pathway which decreases the activity of TIDA neurons and may be responsible, at least in part, for the increase in serum prolactin concentrations. The responsiveness of TIDA neurons to the stress-induced decrease in activity was not influenced by the time of day or the stage of the estrous cycle. Not all stressful manipulations decreased TIDA neuronal activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acute restraint stress decreases dopamine synthesis and turnover in the median eminence: a model for the study of the inhibitory neuronal influences on tuberoinfundibular dopaminergic neurons. 405 76

Young adult and elderly male and female intact rats, as well as chronically ovariectomized (OVX) young and elderly female rats, were subjected to an acute stress by cutting the tip of the tail and prolactin (Prl) concentrations were measured in their blood collected by decapitation at various times thereafter. Maximum concentrations of the hormone were markedly lower in all the three groups of elderly rats than those found in the corresponding young animals, and appeared to occur with a delay in the females, but not in the males. In addition, the Prl-response to stress was attenuated in OVX animals regardless of their age. The result of these experiments, performed at two points on the age scale, suggests that in sexually mature rats of both sexes the stress-induced secretion of Prl is inversely related to the age of the animal and that the reverse relationship is retained in OVX females.
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PMID:Effects of aging on prolactin release after stress in female and male rats. 650 4

Experiments were undertaken to demonstrate the existence of a physiological role of prolactin releasing factor (PRF). Hypothalamic control of prolactin secretion is achieved by secretion of prolactin inhibiting factor (PIF) and/or PRF. Since the putative PIF is dopamine, complete blockage of the dopaminergic PIF receptors should permit demonstration of PRF activity. The changes in prolactin concentration were monitored by taking a blood sample every 2 min through an indwelling atrial cannula. An excessive amount of pimozide (3 mg/kg) was used to block dopaminergic receptors and prolactin concentration was elevated as a result. This higher concentration of circulating prolactin was maintained for more than 30 h after a bolus injection of pimozide. In this situation, lacking functional dopaminergic PIF receptors, there were fluctuations in the circulating prolactin concentration throughout the experiment. If, after pimozide administration, rats were exposed to an acute (ether) stress, the stress consistently elevated the circulating prolactin concentration. Since there are no functional dopaminergic PIF receptors available under these conditions, a dopaminergic PIF cannot be involved in producing the prolactin surge induced by the acute stress. Therefore, these results suggest that a physiological PRF is involved in the generation of this prolactin surge, through the evidence is not direct.
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PMID:Physiological evidence for the existence of prolactin releasing factor: stress-induced prolactin secretion is not linked to dopaminergic receptors. 677 19

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